Hormonal dysregulation and gut microbiota alterations as potential contributors to cognitive dysfunction CHINA, March ...

High-fat diets allow gut bacteria to travel to the brain via the vagus nerve, potentially triggering neurological disorders.

Researchers discovered that gut bacteria could travel to the brain via the vagus nerve in mice, offering clues to the gut-brain axis’ involvement in some neurological disorders. Weiss, Grakoui, and ...

Gut dysbiosis caused by a high-fat diet can allow bacteria to move from the gut to the brain in mice, according to a new study by David Weiss and Arash Grakoui from Emory University, U.S., and ...

Pituitary neuroendocrine tumors (PitNETs) are commonly associated with visual disturbances and endocrine abnormalities; however, many patients also experience cognitive deficits, particularly in ...

As mice age, changes in the microorganisms in their guts contribute to cognitive decline by altering signalling between the gut and brain.

A recent study published in the journal MedComm reviewed the potential role of the gut microbiota-brain axis (GBA) in neurological disorders. Microbiota is a crucial determinant of human health and ...

"Our research highlights the importance of addressing gut problems that can be experienced by people with brain disorders, taking a holistic view that recognizes the ways gastrointestinal issues may ...

Please provide your email address to receive an email when new articles are posted on . Avoidant/restrictive food intake disorder is common among individuals with disorders of gut-brain interaction.

Mental health professionals are discovering that many cases of anxiety, depression, and other mood disorders might actually originate in the digestive system rather than the brain, fundamentally ...

In recent years, it’s become increasingly apparent that there is a bidirectional feedback loop commonly referred to as the “gut-brain axis” (or microbiome–gut–brain axis) that facilitates two-way ...